Tag Archives: growing

Just weeks ago, the first voluntary cannabis product recall occurred under California’s new regulations. According to an article on MJBizDaily.com by John Schroyer, the recall for their vaporizer cartridges affects almost 100 dispensaries in California.

Bloom Brands, the company issuing the voluntary recall, mentioned in a press release that batches sold between July 1-19, 2018 were contaminated with the pesticide Myclobutanil and therefore does not meet the Bureau of Cannabis Control (BCC) standards. Below is an excerpt from the press release:

We are working closely with the BCC to remedy this issue and expect clean, compliant products to be back on shelves in three weeks…. At Bloom, we are continuing to work with the BCC and other partners to ensure that the space is properly regulated and safe for all customers. Transparency and safety remain our top concerns and we will provide updates as additional information becomes available. We apologize for any concern or inconvenience this serious misstep has caused. We thank you for your continued trust and confidence in our products.

Then, just days later, Lowell Herb Co. issued a voluntary recall on their pre-rolls. First reported by MJBizDaily.com, it appears the products initially passed multiple lab tests and was cleared for retail sales. Weeks after the batch passed tests, a laboratory reversed its decision, saying the products failed to pass the state’s testing standards. The contaminant in question was not mentioned.

The CCIA post calling out the BCC

Many seem to think these recalls are a product of the BCC’s unrealistic expectations in their lab testing rules. In a Facebook post days ago, the California Cannabis Industry Association called out the BCC for their unworkable rules. “The BCC has set testing standards that are nearly impossible to meet,” reads the post. “As a result recalls like this will be the norm and the industry will suffer a bottleneck in supply. Testing standards need to be realistic, not impossible.”

Can the laboratory reproduce the sample results for my type of sample?

Now let’s discuss the most important QC test that will protect your crop and business. That QC sample is the Matrix Sample. In the last article in this series, you were introduced to many QC samples. The Matrix Sample and Duplicate were some of them. Take a look back at Part 3 to familiarize yourself with the definitions.

The key factors of these QC sample types are:

Your sample is used to determine if the analysis used by the laboratory can extract the analyte that is being reported back to you. This is performed by the following steps:

Your sample is analyzed by the laboratory as received.

Then a sub-sample of your sample is spiked with a known concentration of the analyte you are looking for (e.g. pesticides, bacteria, organic chemicals, etc.).

The difference between the sample with and without a spike indicates whether the laboratory can even find the analyte of concern and whether the percent recovery is acceptable.

Examples of failures are from my experiences:

Laboratory 1 spiked a known amount of a pesticide into a wastewater matrix. (e.g. Silver into final treatment process water). The laboratory failed to recover any of the spiked silver. Therefore the laboratory results for these types of sample were not reporting any silver, but silver may be present. This is where laboratory results would be false negatives and the laboratory method may not work on the matrix (your sample) correctly. .

Laboratory 2 ran an analysis for a toxic compound (e.g. Cyanide in final waste treatment discharge). A known amount of cyanide was spiked into a matrix sample and 4 times the actual concentration of that cyanide spike was recovered. This is where laboratory results would be called false positives and the laboratory method may not work on the matrix (your sample) correctly.

Can the laboratory reproduce the results they reported to you?

The laboratory needs to repeat the matrix spike analysis to provide duplicate results. Then a comparison of the results from the first matrix spike with its duplicate results will show if the laboratory can duplicate their test on your sample.

If the original matrix spike result and the duplicate show good agreement (e.g. 20% relative percent difference or lower). Then you can be relatively sure that the result you obtained from the laboratory is true.

But, if the original matrix spike result and the duplicate do not show good agreement (e.g. greater than 20% relative percent difference). Then you can be sure that the result you obtained from the laboratory is not true and you should question the laboratory’s competence.

Now, the question is why a laboratory would not perform these matrix spike and duplicate QC samples? Well, the following may apply:

These matrix samples take too much time.

These matrix samples add a cost that the laboratory cannot recover.

These matrix samples are too difficult for the laboratory staff to perform.

Most importantly: Matrix samples show the laboratory cannot perform the analyses correctly on the matrix.

So, what types of cannabis matrices are out there? Some examples include bud, leaf, oils, extracts and edibles. Those are some of the matrices and each one has their own testing requirements. So, what should you require from your laboratory?

The laboratory must use your sample for both a matrix spike and a duplicate QC sample.

The percent recovery of both the matrix spike and the duplicate will be between 80% and 120%. If either of the QC samples fail, then you should be notified immediately and the samples reanalyzed.

If the relative percent difference between the matrix spike and the duplicate will be 20% or less. If the QC samples fail, then you should be notified immediately and the samples should be reanalyzed.

The impact of questionable laboratory results on your business with failing or absent matrix spike and the duplicate QC samples can be prevented. It is paramount that you hold the laboratory responsible to produce results that are representative of your sample matrix and that are true.

The next article will focus on how your business will develop a quality plan for your laboratory service provider with a specific focus on the California Code Of Regulations, Title 16, Division 42. Bureau Of Cannabis Control requirements.

CBC, a cannabinoid typically seen in hemp and CBD-rich plants, has been linked to some potentially impactful medical applications, much like the findings regarding the benefits of CBD. The module that tests for it, along with terpenes and degraded THC, can be added to the LightLab without any changes to hardware or sample preparation.

Dylan Wilks, chief technology officer of Orange Photonics

According to Dylan Wilks, chief technology officer of Orange Photonics, this could be a particularly useful tool for distillate producers looking for extra quality controls. Cannabis distillates are some of the most prized cannabis products around, but the heat used to create them can also create undesirable compounds,” says Wilks. “Distillate producers can see potency drop more than 25% if their process isn’t optimized”. With this new Terpenes+ Module, a distillate producer could quantify degraded THC content and get an accurate reading for their QC/QA department.

We spoke with Stephanie McArdle, president of Orange Photonics, to learn more about their instruments designed for quality assurance for growers and extractors alike.

Stephanie McArdle, president of Orange Photonics

According to McArdle, this could help cultivators and processors understand and value their product when terpene-rich products are the end goal. “Rather than try to duplicate the laboratory analysis, which would require expensive equipment and difficult sample preparation, we took a different approach. We report all terpenes as a single total terpene number,” says McArdle. “The analyzer only looks for monoterpenes (some common monoterpenes are myrcene, limonene and alpha-pinene), and not sesquiterpenes (the other major group of cannabis terpenes, such as Beta- Caryophyllene and Humulene) so the analysis is semi-quantitative. What we do is measure the monoterpenes and make an assumption that the sesquiterpenes are similar to an average cannabis plant to calculate a total terpene content.” She says because roughly 80% of terpenes found in cannabis are monoterpenes, this should produce accurate results, though some exotic strains may not result in accurate terpene content using this method.

The LIghtLab analyzer on the workbench

As growers look to make their product unique in a highly competitive market, many are looking at terpenes as a source of differentiation. There are a variety of areas where growers can target higher terpene production, McArdle says. “During production, a grower may want to select plants for growing based on terpene content, or adjust nutrient levels, lighting, etc. to maximize terpenes,” says McArdle. “During the curing process, adjusting the environmental conditions to maximize terpene content is highly desirable.” Terpenes are also beginning to get recognized for their potential medical and therapeutic values as well, notably as an essential piece in the Entourage Effect. “Ultimately, it comes down to economics – terpene rich products have a higher market value,” says McArdle. “If you’re the grower, you want to prove that your product is superior. If you’re the buyer, you want to ensure the product you buy is high quality before processing it into other products. In both cases, knowing the terpene content is critical to ensuring you’re maximizing profits.”

Orange Photonics’ LightLab operates very similarly to instruments you might find in a cannabis laboratory. Many cannabis testing labs use High Performance Liquid Chromatography (HPLC) to analyze hemp or cannabis samples. “The primary difference between LightLab and an HPLC is that we operate at lower pressures and rely on spectroscopy more heavily than a typical HPLC analysis does,” says McArdle. “Like an HPLC, LightLab pushes an extracted cannabis sample through a column. The column separates the cannabinoids in the sample by slowing down cannabinoids by different amounts based on their affinity to the column.” McArdle says this is what allows each cannabinoid to exit the column at a different time. “For example, CBD may exit the column first, then D9THC and so on,” says McArdle. “Once the column separates the cannabinoids, they are quantified using optical spectroscopy- basically we are using light to do the final quantification.”

I worked for about 18 years as a company employee in various levels from entry-level engineer to senior director. Since then I have spent over a decade as a consultant in the life science industry as the founder of Sebald Consulting. Presently, I also use consultants as CEO of GxPready!, a web based CMMS software company. Based on this experience, I have put together a top 5 list of things you can do to get the most value when using consultants:

1. Recognize when a project requires a consultant

There can be several reasons a project may benefit from having a consultant which may include bringing a new skill set, industry experience or an outside perspective to bear on a project that is not available otherwise.

Provide clear guidance as to what the task and deliverables are on an ongoing basis.Also, there are occasions when resources are already stretched and you need short-term support to get through an intensive segment of a project, but the work may not be enough to justify additional longer-term resources.

In any of these cases, filling the gap internally can be difficult and time consuming. A consultant can be a great solution. Even if you don’t plan to use a consultant for the project, it may be to your benefit to have a consultant perform a “gap assessment” to help you to identify areas which require improvement to meet compliance requirements or best practice guidelines. This is often done to prepare for audits, for example.

2. Vet the consultant to get a good match

Contact potential consultants to determine if they have the set of skills you are looking for and if they fit within the culture of your organization. Talk to the actual consultant you will be working with before bringing them on. Review the consulting contract carefully to make sure the terms are mutually acceptable. Often consultants have some flexibility to accommodate different project situations.

One advantage to using consultants is that you don’t have a long commitment so even after you vet them with interviews, you can work on small projects and gauge the results. Some consulting companies are very formal and others are less so, for example. A good fit is better for both parties. It’s not just the competence, but the culture and personal fit with your team.

3. Provide the consultant with appropriate guidance and resources

Help the consultant give you the best results possible by providing access to the resources (personnel, information, documents, systems, etc.) to allow the consultant to perform the tasks.

Consultants can help you get through unfamiliar territory or help you to manage your team’s workload. Know how to use these resources to benefit your projects. This project manager called just in time.

Provide clear guidance as to what the task and deliverables are on an ongoing basis.

Alternatively, allow the consultant to manage the project and reach out as necessary. Any guidance and resources you can provide the consultant will increase the effectiveness and help control your costs on the project.

If you don’t know exactly what needs to be done (“That’s why I hired a consultant!”) then have the consultant put together a list for you based on some general guidance and then work from that list to get your job completed.

4. Track progress with appropriate level of detail

If you have vetted and hired a consultant, chances are they are going to put in their best effort to meet your requirements. Nonetheless, it is good practice to have a system in place to track hours/costs.

Whether it is weekly reporting, or based on milestones and project updates, this helps to avoid any misunderstandings and provides opportunities for communication of project issues in addition to whatever project updates may be scheduled.

You want your team of consultants and employees to be able to work as well as possible together.Recognize that you can go overboard in this area, working against yourself and the project, if the tracking is so detailed that it takes excessive resources to document. It is definitely possible to inadvertently generate more hours (and expense) by managing time in too much detail. If the concern is high and heavy management is required, perhaps that indicates the consultant is not the best match for this project.

Generally, you can find a good balance with a simple up-front chat with the consultant to review your expectations, and for larger projects it is often formalized in the contract.

5. Recognize if it’s not a good fit

There are many consultants and clients out there. Inevitably, there are times when, despite best intentions, the consultant/client mix isn’t working out. Make sure the contract allows for management of this situation. Can you cancel the contract with reasonable notice? Is there a mechanism for being able to replace members of the team that aren’t working out?

You want your team of consultants and employees to be able to work as well as possible together. If that’s not happening, recognize it and make adjustments as necessary. But don’t lose the contact information. A consultant that doesn’t work out today may be just right for your next project!

Following the above can improve your chances of success with consultants you may hire and allow you to build a solid set of resources you can call on from time to time as things change in your company. Consultants can fill a vital role for tasks requiring specialized skills or short-term projects where a full time hire is not practical.

Lessthan a week after Cannabis Industry Journal reported that BfArM had finally cancelled the first German tender bid for cannabis cultivation, and after refusing to confirm the story to this outlet, the agency quietly posted the new one online, at 3.45pm Central European Time, July 19.

First Thing’s First

For those who have not seen it yet, here is a first look at the “new” bid auf Deutsch. It is basically identical to the last one. For the most part, Europe is shaping up to be a high volume ex-im market.For now, that is all that exists. However,a move is on in Europe to translate the bid into English. Why? To hold BfArM accountable. And to help educate all the foreign and for the most part, non-German speaking investors who want to know what is required to get the bid in the first place. The process last time left a great deal to be desired.

Bid Redux

Apart from this, however, very little seems to have changed from the last time. Notably,the amount to be grown domestically is the same. This means that the government is deliberately setting production below already established demand.

Photo: Ian McWilliams, Flickr

Why?

As has become increasingly clear, the German government at leastdoes not want to step into the cultivation ring. Further,because they are being forced to, the government wants to proceed slowly. That means that for at least the next couple of years, barring local developments, it is actively creating a market where imports are the only kind of cannabis widely available – for any purpose. And in this case, strictly medical. With many, many restrictions. Starting with no advertising.

Import Europe

For the most part, Europe is shaping up to be a high volume ex-im market. This was already in the offing even last year when Tilray announced the constructionof their Portuguese facilities last summer, and Aurora and Canopy began expanding all over the continent, starting in Denmark, but hardly limited to the same.

These days it is not the extreme west of Europe (Spain and Portugal) that are the hot growingareas, but the Balkans and Greece. Cheap labour, real estate and GMP standards are the three magic words to market entry.

Can This Situation Hold?

There are several intriguing possibilities at this point. The simple answer is that the current environment is simply not sustainable.

Clearly, it is two-fold. The first is to deleverage the power of financial success as a way of legitimizing the drug if not the “movement.” Further, if Germans want to profit from the legal cannabis market it is going to be very difficult. See the bid last year beyond this new development.

That means everyone else is going to have to get creative. The industry, advocates and patients have seen similar moves before. Patient access and profitability are not necessarily the same thing.An increasing numbers of companies are finding ways around being cultivators to get their product into the country anyway.

What Now?

The only problem with such strategies, just like banning German firms from competing in the bid, is that “prohibition” of this kind never works.

It will not keep cannabis out of Germany. The vast majority of the medical cannabis consumed by patients in Germany will come from the extremes – of east and western Europe – with Canadian, Dutch and even Danish stockpiles used as necessary. It will also not discourage the domestic cannabis movement here, which is critical as ever in keeping powerful feet to the fire.

It will also not discourage German firms from entering the market – in a variety of creative ways. Most German cannabis companies are not public, and most are setting themselves up as processors and distributors rather than growers.

So in summary, the bid is back. But this time, it is absolutely not as “bad” as ever. An increasing numbers of companies are finding ways around being cultivators to get their product into the country anyway.

As for raising money via public offerings? There are plenty of other countries where the publicly listed, now banned North American companies can raise funds on public exchanges (see Sweden and Denmark) as they target the cannabis fortress Deutschland.

Save the Dates for the 6th Annual Food Safety Consortium conference in Schaumburg, IL, a summit of Food Safety and Quality Assurance (FSQA) industry experts and government officials. The 2018 Food Safety Consortium will have a cannabis track this year where topics will include: regulations, standards, cannabis food safety & quality and much more.

The National Cannabis Industry Association (NCIA) announced earlier this week the release of two white papers at their Cannabis Business Summit in San Jose, California.The first white paper, dedicated to cannabis testing policy, offers recommendations for state’s addressing cannabis testing, advising them on how to write rules for the testing market.“As wonderful as cannabis is, we’ll face a crisis together as an industry way too soon. When it happens, the key will be how we respond to it,” says Moss.

The NCIA Policy Council is like a think tank for helping for and shape state and federal level policy related to cannabis. Kurshid Khoja, principal at Greenbridge Corporate Counsel and member of the Policy Council, says this release of the testing policy recommendations demonstrates how we can help shape policy on the state level. “As both an NCIA Board member and a member of the Policy Council, I am really excited about the Council’s work,” says Khoja. “Somewhat under the radar, the Policy Council is establishing itself as the think tank for the cannabis industry. On topics ranging from tax policy to pesticides to international competition, the Policy Council is churning out quality papers to raise awareness and educate policy makers in DC. With the release of its testing policy recommendations this week, the Policy Council is demonstrating that it could also help shape policy on the state level.”

The second white paper is meant to provide guidance to businesses dealing with crisis communications. The manual describes best practices in crisis communications, showing businesses how to identify and avoid potential public communications issues in the cannabis industry.

Jeanine Moss, Crisis Manual Subcommittee Chair of NCIA’s Marketing & Advertising Committee, says the creation of a crisis manual is meant to preempt problems we might face soon in the cannabis industry. “As wonderful as cannabis is, we’ll face a crisis together as an industry way too soon. When it happens, the key will be how we respond to it,” says Moss. “That’s why we think it is so important for NCIA members to have an easy and practical guide that can not only help protect businesses during a crisis, but also the industry as a whole. This manual will help businesses prevent problems, keep issues from spiraling out of control, and share positive messages during times of stress.”

Calls for more testing have been a watchword of both cannabis reform advocates and opponents alike for many years.

However, now is a really good time for cannabis companies to consider sponsoring medical trials across Europe for their cannabis products. This is why:

The Current Environment On The Ground

Germany is Europe’s biggest consumer of both prescription medications and medical devices dispensed by prescription. It is, as a result, Europe’s most valuable drug market. And ground zero for every international cannabis company right now as a result.Targeting Germany for your latest pharmaceutical product is difficult no matter who you are.

Here, however, are a few problems that face every pharma manufacturer, far beyond cannabis. Targeting Germany for your latest pharmaceutical product is difficult no matter who you are.

The vast majority by euro spending on all drugs and devices dispensed by prescription must be pre-approved. To add to this problem, before they can be prescribed, new drugs must get on the radar of doctors somehow. To put this in stark relief, the entire prescription drug and medical device annual spend is about 120 billion euros a year in Germany. Only 20 billion euros of that, however, may be obtained relatively easily (without pre-approval from an insurer). Preapproval also only comes when there is trialor other scientific evidence of efficacy.

There are strict rules banning the advertising of prescription drugs to patients and highly limiting this outreach to doctors.

There are strict rules prohibiting the use of the word “cannabis” to promote anything.

There is a strong reliance on what is called “evidence-based medicine.” That means that large numbers of doctors and insurance company approvers need to see hard data that this drug or device actually works better than what is currently on the market.

How then, is a new drug supposed to get on the radar of those who prescribe the drug? Or patients?

If this sounds like an impossible situation to navigate, do not despair. There is a way out.

The Impact of the European Medicines Agency

Largely unknown outside Europe, this agency actually has a hugeinfluence on how drugs are brought into the region. Specifically, this is the EU-wide agency (aka the EMA) that both regulates all drugs within Europe, but has also, since 2016, been making clinical reports submitted by pharmaceutical companies, available to anyone who asks for them. That includes doctors, members of the public and of course, the industry itself.

In the middle of July, the agency also published a report on the success of its now three-year-old program, including the usage of its entry website. Conveniently written in English, it is possible to easily search new trial data, which, also now must be made public.

Medical trial data, in other words, that can be created by sponsored cannabis company backed trials.

It remains the best way to get patients, doctors and insurance companies familiar with new drugs. Or even new uses for old drugs in the case of cannabis.

Will Trials Move Legalization Discussions?

Of all the established cannabis companies now in operations with producton the ground, GW Pharmaceuticals has learned that this strategy can actually cut both ways.

However,there are no other cannabis companies in the position of GW Pharma – namely with a monopoly on a whole country (the UK), where it alone can legally grow cannabis crops and process the same into medication and further for very profitable export. In addition, even more disturbingly, and clearly an era that is coming to an end, the vast majority of British patients have been excluded from access to cannabis except in the case of GW Pharma products.

GW Pharma said their product Epidiolex (for the treatment of childhood epilepsy) is being considered by the European Medicines Agency

However, that is the UK.

Other cannabis companies can take a page out of the company’s handbook. All that is required for faster market entry, is a slightly altered recipe.

By sponsoring cannabis-related trials in each country they want to enter, starting with Germany, cannabis companies can literally put themselves on the medical map.

Why?

Because doctors, patients andother researchers will be easily able to see and access country-specific medical data on each use of cannabis covered by a trial, per EU country. All made possible, of course, by the new open door policy of the EMA.

Growing the Medical Market

While this may sound like an “expensive” proposition, there are really few other alternatives. And with no advertising budget, plus a marketing budget that must include outreach to everyone in the supply chain including doctors, distributors and even pharmacies, the trial approach in the end may be the most efficacious in broadening both the demand and market. Not to mention the cheaper option.

How such a trial strategy might be coordinated at a time when domestic cultivation is still on hold is still a question. However for those companies considering market entry and cultivation bid if not domestic processing strategies for their products is an industry strategy that will pay off in spades.

Its role in the legalization of cannabis as medicine, as well as the speedier introduction of new drugs overall into the European system,cannot be underestimated, even if it is currently underutilized by the cannabis industry specifically now.

Editor’s Note: The views expressed in this article are the author’s opinions based on his experience working in the laboratory industry. This is an opinion piece in a series of articles designed to highlight the potential problems that clients may run into with labs.

Do not be discouraged by the analytical jargon of the next few articles. I suggest that you go immediately to the conclusions to get the meat of this article and then read the rest of it to set you on the path to see the forest for the trees.

QC in a laboratory consists of a series of samples run by the laboratory to determine the accuracy and precision of a specific batch of samples. So, to start off, let’s look at the definitions of accuracy and precision.QC Charts can provide a detailed overview of laboratory performance in a well-run laboratory.

Accuracy: estimate of how close a measured value is to the true value; includes expressions for bias and precision.

Precision: a measure of the degree of agreement among replicate analyses of a sample.

A reputable laboratory will measure the Accuracy and Precision of QC samples in a batch of user samples and record these values in both the analytical test report issued to the user and in control charts kept by the laboratory. These control charts can be reviewed by the user if they are requested by the user. These control charts record:

Accuracy (means) chart: The accuracy chart for QC samples (e.g., LRB, CCV, LFBs, LFMs, and surrogates) is constructed from the average and standard deviation of a specified number of measurements of the analyte of interest.

Precision (range) chart: The precision chart also is constructed from the average and standard deviation of a specified number of measurements (e.g., %RSD or RPD) for replicate of duplicate analyses of the analyte of interest.

Now, let’s look at what should be run in a sample batch for cannabis analyses. The typical cannabis sample would have analyses for cannabinoids, terpenes, microbiological, organic compounds, pesticides and heavy metals.

Each compound listed above would require a specific validated analytical method for the type of matrix being analyzed. Examples of specific matrixes are:

Running QC analyses does not guarantee that the user’s specific sample in the batch was analyzed correctly.

Also, both ISO 17025-2005 and ISO 17025-2017 require the use of a validated method.

ISO 17025-2005: When it is necessary to use methods not covered by standard methods, these shall be subject to agreement with the customer and shall include a clear specification of the customer’s requirements and the purpose of the test and/or calibration. The method developed shall have been validated appropriately before use.

ISO 17025-2017: The laboratory shall validate non-standard methods, laboratory-developed methods and standard methods used outside their intended scope or otherwise modified. The validation shall be as extensive as is necessary to meet the needs of the given application or field of application.

The laboratory must have on file for user review the following minimum results in an analytical statistical report validating their method:

accuracy,

limit of quantitation,

ruggedness,

precision,The user must look beyond the QC data provided in their analytical report or laboratory control charts.

linearity (or other calibration model),

confirmation of identity

selectivity,

range,

spike recovery.

limit of detection,

measurement uncertainty,

The interpretation of an analytical statistical report will be discussed in detail in the next article. Once the validated method has been selected for the specific matrix, then a sample batch is prepared for analysis.

Sample Batch: A sample batch is defined as a minimum of one (1) to a maximum of twenty (20) analytical samples run during a normal analyst’s daily shift. A LRB, LFB, LFM, LFMD, and CCV will be run with each sample batch. Failure of any QC sample in sample batch will require a corrective action and may require the sample batch to be reanalyzed. The definitions of the specific QC samples are described later.

The typical sample batch would be set as:

Instrument Start Up

Calibration zero

Calibration Standards, Quadratic

LRB

LFB

Sample used for LFM/LFMD

LFM

LFMD

Samples (First half of batch)

CCV

Samples (Second half of batch)

CCV

The QC samples are defined as:

Calibration Blank: A volume of reagent water acidified with the same acid matrix as in the calibration standards. The calibration blank is a zero standard and is used to calibrate the ammonia analyzer

Continuing Calibration Verification (CCV): A calibration standard, which is analyzed periodically to verify the accuracy of the existing calibration for those analytes.

Calibration Standard: A solution prepared from the dilution of stock standard solutions. These solutions are used to calibrate the instrument response with respect to analyte concentration

Laboratory Fortified Blank (LFB): An aliquot of reagent water or other blank matrix to which known quantities of the method analytes and all the preservation compounds are added. The LFB is processed and analyzed exactly like a sample, and its purpose is to determine whether the methodology is in control, and whether the laboratory is capable of making accurate and precise measurements.

Laboratory Fortified Sample Matrix/Duplicate (LFM/LFMD) also called Matrix Spike/Matrix Spike Duplicate (MS/MSD): An aliquot of an environmental sample to which known quantities of ammonia is added in the laboratory. The LFM is analyzed exactly like a sample, and its purpose is to determine whether the sample matrix contributes bias to the analytical results. The background concentrations of the analytes in the sample matrix must be determined in a separate aliquot and the measured values in the LFM corrected for background concentrations (Section 9.1.3).Laboratories must validate their methods.

Laboratory Reagent Blank (LRB): A volume of reagent water or other blank matrix that is processed exactly as a sample including exposure to all glassware, equipment, solvents and reagents, sample preservatives, surrogates and internal standards that are used in the extraction and analysis batches. The LRB is used to determine if the method analytes or other interferences are present in the laboratory environment, the reagents, or the apparatus.

Once a sample batch is completed, then some of the QC results are provided in the user’s analytical report and all of the QC results should be recorded in the control charts identified in the accuracy and precision section above.

But having created a batch and performing QC sample analyses, the validity of the user’s analytical results is still not guaranteed. Key conclusion points to consider are:

Laboratories must validate their methods.

Running QC analyses does not guarantee that the user’s specific sample in the batch was analyzed correctly.

QC Charts can provide a detailed overview of laboratory performance in a well-run laboratory.

The user must look beyond the QC data provided in their analytical report or laboratory control charts. Areas to look at will be covered in the next few articles in this series.

Water is essential for life and it is an important part of agriculture and food manufacturing. Water has many uses in the cannabis industry. Among the most common uses are irrigation, ingredient/product processing and cleaning processes.

Water can be the carrier of pathogenic microorganisms and chemicals that can be transferred to food through agriculture and manufacturing practices. Poor quality water may have a negative impact in food processing and potentially on public health. Therefore, development and implementation of risk management plans that ensure the safety of water through the controls of hazardous constituents is essential to maintain the safety of agricultural and manufactured food or cannabis products.

Chemicals can enter the water stream through several sources such as storm water, direct discharge into fields and city water treatment plans.Although there no current regulations regarding the water used in cannabis cultivation and processing, it is highly recommended that the industry uses potable water as standard practice. Potable water is water that is safe for drinking and therefore for use in agriculture and food manufacturing. In the United States, the Environmental Protection Agency (EPA) sets the standards for water systems under the Safe Drinking Water Act (SDWA.)The regulations include the mandatory levels defined as Maximum Contaminant Levels (MCLs) for each contaminant that can be found in water. Federal Drinking Water Standards are organized into six groups: Microorganisms, Disinfectants, Disinfection Byproducts, Inorganic Chemicals, Organic Chemicals and Radionuclides. The agriculture and food manufacturing industry use the SDWA as a standard to determine water potability. Therefore, water testing forms part of their routine programs. Sampling points for water sources are identified, and samples are taken and sent to a reputable laboratory to determine its quality and safety.

Microbiological Testing

Determining the safety of the water through microbiological testing is very important. Pathogens of concern such as E. coli, Salmonella, Cryptosporidium parvum and Cyclospora sp. can be transmitted to food through water. These pathogens have been known to be lethal to humans, especially when a consumer’s immune system is compromised (e.g. cancer patients, elderly, etc.) If your water source is well, the local state agency may come to your facility and test the water regularly for indicator organisms such as coliforms. If the levels are outside the limit, a warning will be given to your company. If your water source is the city, regular testing at the facility for indicator microorganisms is recommended. In each case, an action plan must be in place if results are unfavorable to ensure that only potable water is used in the operations.

Chemicals can enter the water stream through several sources such as storm water, direct discharge into fields and city water treatment plans. Although, there are several regulations governing the discharge of chemicals into storm water, fields and even into city water treatment plants, it is important that you test your incoming water for these chemicals on a regular basis. In addition, it is important that a risk assessment of your water source is conducted since you may be at a higher risk for certain components that require testing. For example, if your manufacturing facility is near an agricultural area, pesticides may enter the surface water (lakes, streams, and rivers) or the aquifer (ground water) through absorption into the ground or pollution. In this case, you may be at higher risk for Tetrahalomethanes (THMs), which are a byproduct of pesticides. Therefore, you should increase the testing for these components in comparison to other less likely to occur chemicals in this situation. Also, if your agriculture operation is near a nuclear plant, then radionuclides may become a higher risk than any of the other components.

Finally, in addition to the implementation of risk management plans to ensure the safety of water, it is highly recommended that companies working in food manufacturing facilities become familiar with their water source to ensure adequate supply to carry on their operations, which is one of the requirements under the 21 CFR 117. Subpart B – Current Good Manufacturing Practices (cGMPs) for food manufacturers under the Preventive Controls for Human Foods Rule that was enacted under the Food Safety Modernization Act in 2015. Also, adequate supply is part of the Good Agricultural Practices (GAP) The EPA has created a program that allows you to conduct a risk assessment on your water source. This program is called Source Water Protection. It has six steps that are followed to develop a plan that not only protect sourcing but also ensures safety by identifying threats for the water supply. These six steps are:

Delineate the Source Water Protection Area (SWPA): In this step a map of the land area that could contribute pollutants to the water is created. States are required to create these maps, so you should check with local and/or state offices for these.

Inventory known and potential sources of contamination: Operations within the area may contribute contaminants into the water source. States usually delineates these operations in their maps as part of their efforts to ensure public safety. Some examples of operations that may contribute to contaminants into the water are: landfill, mining operations, nuclear plants, residential septic systems, golf courses, etc. When looking at these maps, be sure that you verify the identified sources by conducting your own survey. Some agencies may not have the resources to update the maps on a regular basis.

Determine the susceptibility of the Public Water Source (PWS) to contaminate sources or activities within the SWPA: This is basically a risk assessment. In here you will characterize the risk based on the severity of the threat and the likelihood of the source water contamination. There are risk matrices that are used as tools for this purpose.

Notify the public about threats identified in the contaminant source inventory and what they mean to the PWS: Create a communication plan to make the State and local agencies aware of any findings or accidents in your operation that may lead to contamination of the PWS.

Implement management measures to prevent, reduce or eliminate risks to your water supply: Once risks are characterized, a plan must be developed and implemented to keep risks under control and ensure the safety of your water.

Develop contingency planning strategies that address water supply contamination or service interruption emergencies: OSHA requires you to have an Emergency Preparedness Plan (EPP). This plans outlines what to do in case of an emergency to ensure the safety of the people working in the operation and the continuity of the business. This same approach should be taken when it comes to water supply. The main questions to ask are: a) What would we do if we find out the water has been contaminated? b) What plan is in place to keep the business running while ensure the safety of the products? c) How can we get the operation back up and running on site once the water source is re-stablished?

The main goal of all these programs is having safe water for the operations while keeping continuity of the business in case of water contamination.

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